UNIVERSITY OF ROCHESTER MEDICAL CENTER
DEPARTMENT OF IMAGING SCIENCES
DIAGNOSTIC RADIOLOGY
RESIDENCY PROGRAM
2007-2008
RESIDENT BENEFITS
Vacation days 20 weekdays/per year
Sick time 10 weekdays/per year
Emergency (university granted) 2 days/...
2
CONTENTS
INTRODUCTION AND OVERVIEW 3
Letter from the Program Director
Letter from the Chairman
Radiology Faculty
Radiolo...
3
INTRODUCTION AND OVERVIEW
LETTER FROM THE PROGRAM DIRECTOR
John C. Wandtke, MD
Radiology Residency Program Director
Prof...
4
LETTER FROM THE CHAIRMAN
David L. Waldman, M. D., Ph.D.
Professor and Chair
Welcome to Radiology!
On behalf of the facul...
5
FACULTY
Chair
Waldman, David L., M.D., Ph.D. Chair
Professors
Adams, Mark J. M.D., M.B.A. Associate Chair; General Radio...
6
Davis, Delphine, Ph.D. Coordinator: Radiology Research
Elvey, Simone, M.D. General Radiology, Highland Hospital
Farzaneg...
7
RESIDENTS
PGY 5 Residents in Radiology
Chang, Hannah, M.D. University of Vermont 2003
Christensen, Jared, M.D.
2
Univers...
8
EDUCATION COMMITTEE
This is a committee with faculty and resident representation that is charged with oversight of all i...
9
EDUCATIONAL PROGRAMS
GENERAL DIAGNOSTIC RADIOLOGY
The University of Rochester/Strong Memorial Hospital residency program...
10
TYPICAL RESIDENT CURRICULUM
MONTHS
Abdominal Imaging: GI/GU 6
Angio/Interventional 4
Cardiac 1
Chest 3
CT: Body 4
Emerg...
11
RESIDENT
GOALS AND OBJECTIVES
BY
ROTATION
The Department of Imaging Sciences follows the competency requirements as set...
12
ABDOMINAL IMAGING
The radiology resident will rotate through GI and GU procedures and other abdominal imaging rotations...
13
• At this time the resident rotating through a second time will probably have undergone ultrasound
and CT rotations of ...
14
• The resident should begin to understand the normal, normal variant and pathologic GU anatomy.
Plain image interpretat...
15
ANGIO
VASCULAR-INTERVENTIONAL RADIOLOGY
Throughout the four-year residency in Diagnostic Radiology Residency, each resi...
16
• Name and identify the renal arterial branches and describe Brödel's avascular zone and it
relationship to percutaneou...
17
Fourth Rotation
Goals
Medical Knowledge
• Knowledge of the mechanism of angioplasty
• Knowledge of complications of ang...
18
Second Rotation
Technical Skills
Patient Care
• Manual dexterity in using pigtail catheter to go around the aortic bifu...
19
CARDIAC RADIOLOGY
CT & MR
Medical knowledge, patient care
Anatomy of the heart and great vessels
Increase knowledge of
...
20
• Myocardial perfusion and viability scanning
Medical knowledge, patient care
Cardiac Scintigraphy (including PET)
• In...
21
CHEST
Year One: First, four-week rotation
Goals
Professionalism, Medical Knowledge, lnterpersonal and Communication Ski...
22
• Arrive for the rotation assignment on time and prepared after reviewing recommended study
materials.
• Utilize previo...
23
Objectives
Medical Knowledge
At the end of the third chest rotation, the resident will demonstrate knowledge of 100% of...
24
CT - BODY
Through the four-year residency in diagnostic radiology, each resident completes four, four-week
rotations in...
25
Second Rotation
Goals
Medical Knowledge, Interpersonal and Communication Skills, Professionalism, Patient Care
• Refine...
26
• Virtual colonoscopy
• Thoracic outlet syndrome
Fourth Rotation
Goals
Medical Knowledge, Interpersonal and Communicati...
27
EMERGENCY RADIOLOGY
Emergency Radiology Curriculum
Adapted from the Society of Emergency Radiology Edited By R. A. Nove...
28
• Laminar fractures
• Facet dislocation with fracture
Thoraco-lumbar trauma
• Compression fracture, Burst Fracture
• Ch...
29
• Gastrointestinal hemorrhage
• Bowel obstruction, bowel infarction, bowel infection
• Appendicitis, diverticulitis, In...
30
• Salter-Harris physeal injuries
• Fractures
Head - usually associated with hip dislocation
Neck - subcapital, transcer...
31
First year Residents (PGY 2)
Day (8AM-5 PM), Evening (5-9 PM) & Weekends/ holidays (8 AM-5 PM)
Knowledge Based Objectiv...
32
Third & Fourth Year Residents (PGY 4)
Nights (9 PM- 8AM) & weekends/ holidays (5PM-8AM)
Knowledge Based Objectives
Medi...
33
MRI - BODY
Through the four year residency in diagnostic radiology, each resident competes three, four week
rotations i...
34
Objectives
Medical knowledge
Identify the MR appearance of the following pathology.
• Hepatic abcess
• Pancreatic abces...
35
• Pediatric congenital heart disease
• Valvular heart disease
Conferences
Weekly conference in Cross-Sectional Imaging....
36
MUSCULOSKELETAL RADIOLOGY
The musculoskeletal radiology rotation includes (three) four-week rotations, based at Strong ...
37
These objectives are outlined in detail and available upon request:
• Congenital and Developmental Abnormalities
• Trau...
38
NEURORADIOLOGY
Goals
Residents rotate through the Section of Neuroradiology during each of their four years of training...
39
• Understand the basic physics of computed tomography (CT). Be familiar with various standard
CT imaging protocols and ...
40
including disc herniations, spinal stenosis, endplate changes, and facet joint disease. Be able to
characterize traumat...
41
• Refine indications for direct coronal imaging, and orthogonal and 3D reconstructions.
• Learn to prepare and present ...
42
• Interpret MR scans at least three times a week under the supervision of an attending.
• Provide emergent and/or provi...
43
NUCLEAR MEDICINE
ROTATION I
Knowledge Based Objectives
Medical Knowledge
At the end of the rotation, the resident will ...
44
o tumor and abscess imaging
• Identify and discuss indications for isotopes used for therapeutic purposes
• Describe th...
45
Decision-Making and Value Judgment Skills
Medical Knowledge, Practice Based Learning and Improvement, Interpersonal and...
46
o compounding of radiopharmaceuticals
o radiochemical quality control
o bio-distribution and mechanisms of localization...
47
PHYSICS AND RADIOPHARMACY
Medical Knowledge, System Based Practice
Provisions will be made throughout the rotation to
•...
UNIVERSITY OF ROCHESTER MEDICAL CENTER D
UNIVERSITY OF ROCHESTER MEDICAL CENTER D
UNIVERSITY OF ROCHESTER MEDICAL CENTER D
UNIVERSITY OF ROCHESTER MEDICAL CENTER D
UNIVERSITY OF ROCHESTER MEDICAL CENTER D
UNIVERSITY OF ROCHESTER MEDICAL CENTER D
UNIVERSITY OF ROCHESTER MEDICAL CENTER D
UNIVERSITY OF ROCHESTER MEDICAL CENTER D
UNIVERSITY OF ROCHESTER MEDICAL CENTER D
UNIVERSITY OF ROCHESTER MEDICAL CENTER D
UNIVERSITY OF ROCHESTER MEDICAL CENTER D
UNIVERSITY OF ROCHESTER MEDICAL CENTER D
UNIVERSITY OF ROCHESTER MEDICAL CENTER D
UNIVERSITY OF ROCHESTER MEDICAL CENTER D
UNIVERSITY OF ROCHESTER MEDICAL CENTER D
UNIVERSITY OF ROCHESTER MEDICAL CENTER D
UNIVERSITY OF ROCHESTER MEDICAL CENTER D
UNIVERSITY OF ROCHESTER MEDICAL CENTER D
UNIVERSITY OF ROCHESTER MEDICAL CENTER D
UNIVERSITY OF ROCHESTER MEDICAL CENTER D
UNIVERSITY OF ROCHESTER MEDICAL CENTER D
UNIVERSITY OF ROCHESTER MEDICAL CENTER D
UNIVERSITY OF ROCHESTER MEDICAL CENTER D
UNIVERSITY OF ROCHESTER MEDICAL CENTER D
UNIVERSITY OF ROCHESTER MEDICAL CENTER D
UNIVERSITY OF ROCHESTER MEDICAL CENTER D
UNIVERSITY OF ROCHESTER MEDICAL CENTER D
UNIVERSITY OF ROCHESTER MEDICAL CENTER D
UNIVERSITY OF ROCHESTER MEDICAL CENTER D
UNIVERSITY OF ROCHESTER MEDICAL CENTER D
UNIVERSITY OF ROCHESTER MEDICAL CENTER D
UNIVERSITY OF ROCHESTER MEDICAL CENTER D
UNIVERSITY OF ROCHESTER MEDICAL CENTER D
UNIVERSITY OF ROCHESTER MEDICAL CENTER D
UNIVERSITY OF ROCHESTER MEDICAL CENTER D
UNIVERSITY OF ROCHESTER MEDICAL CENTER D
UNIVERSITY OF ROCHESTER MEDICAL CENTER D
UNIVERSITY OF ROCHESTER MEDICAL CENTER D
UNIVERSITY OF ROCHESTER MEDICAL CENTER D
UNIVERSITY OF ROCHESTER MEDICAL CENTER D
UNIVERSITY OF ROCHESTER MEDICAL CENTER D
UNIVERSITY OF ROCHESTER MEDICAL CENTER D
UNIVERSITY OF ROCHESTER MEDICAL CENTER D
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UNIVERSITY OF ROCHESTER MEDICAL CENTER D

  1. 1. UNIVERSITY OF ROCHESTER MEDICAL CENTER DEPARTMENT OF IMAGING SCIENCES DIAGNOSTIC RADIOLOGY RESIDENCY PROGRAM 2007-2008
  2. 2. RESIDENT BENEFITS Vacation days 20 weekdays/per year Sick time 10 weekdays/per year Emergency (university granted) 2 days/per year Bereavement (per university policy) 3 days/per year Paternity/Maternity (per university policy) Meetings/Scientific Presentations 4 days/ per presentation Interview days 3 days/ once in 4 years Exams 2 days travel/ per exam written, physics, oral boards
  3. 3. 2 CONTENTS INTRODUCTION AND OVERVIEW 3 Letter from the Program Director Letter from the Chairman Radiology Faculty Radiology Residents Education Committee EDUCATIONAL PROGRAMS 9 General Diagnostic Radiology Resident Four-Year Curriculum Educational Goals and Objectives Vascular-Interventional Track Nuclear Medicine Residency Program Fellowship Programs Body Imaging (CT, US, MRI) Emergency Radiology Magnetic Resonance Imaging at UMI Musculoskeletal Radiology Neuroradiology Pediatric Radiology Vascular-Interventional Radiology CONFERENCES 70 Departmental Interdepartmental Core Curriculum Continuing Medical Education RESOURCES 72 Departmental library Teaching files RESIDENT DUTIES AND RESPONSIBILITIES 73 Night call and weekend duties Night float/ED rotation Night-call Qualifying Examination Vacations RESIDENT EVALUATION PROCESS 76 Evaluation of residents Resident evaluation form REQUIREMENTS FOR RESIDENT ADVANCEMENT 77 Promotion and Reappointment Disciplinary Action Remediation DEPARTMENT POLICIES 78 Resident work hours Moonlighting policy Resident supervision Resident teaching Paternity/ LOA Sick time Vacation Finance/ Purchasing Policies APPENDIX 82 Six General Competencies ACGME General Competencies
  4. 4. 3 INTRODUCTION AND OVERVIEW LETTER FROM THE PROGRAM DIRECTOR John C. Wandtke, MD Radiology Residency Program Director Professor and Vice Chair This manual describes the clinical, educational, and research opportunities for residents at the University of Rochester Medical Center during the 2007-8 academic year. It is anticipated that your training experience will prepare you to become a most competent clinical practitioner and/or academician with outstanding credentials. One of the strengths of our program is the magnitude and diversity of the clinical material. Your training will be within the film-less radiology department at Strong Memorial Hospital under the direct supervision of subspecialty-oriented faculty. However, we have the added advantage of enhanced experience at the SMH musculoskeletal outpatient unit at Clinton Crossings, Highland Hospital’s Radiology Department and Women’s Center at Red Creek and PET CT and 3T MRI at Science Park. Elective opportunities are available at the Armed Forces Institute of Pathology (AFIP) and our outpatient practice at University Medical Imaging (UMI). Didactic training begins with a special lecture series for beginning residents in addition to our regular conference and grand rounds. PGY 2 residents will participate in our comprehensive radiology physics course. These educational experiences are supplemented by educational CD’s and books within our library, and a book allowance for educational support. Faculty and resident research are another strong aspect of our department. Basic radiological research is available for pursuit of clinical applications and enhanced investigations. Our residents have been honored by the RSNA Roentgen Resident/Fellow Research Award and regularly are selected to attend the AUR/RSNA/ARRS Introduction to Research Program. During the past year our residents, were honored by, the Association of University Radiologists, the Association for Academic Women Radiologists and the RSNA Resident in Research Program for their research presentations. The department sponsors residents’ presentations at major national meetings and subsequent publications. Perhaps the greatest strength of the program is the collegiality among the residents and good working relationships with the faculty and staff. This atmosphere provides mutual support in optimally caring for patients and in effective preparation for future practice. However, you need to do your part in preparation for your future career. Your learning experience begins on the first day of your residency and continues through every day of each rotation. Welcome to the Radiology Residency Program for 2007-2008.
  5. 5. 4 LETTER FROM THE CHAIRMAN David L. Waldman, M. D., Ph.D. Professor and Chair Welcome to Radiology! On behalf of the faculty, I would like to welcome you to the Department of Imaging Sciences and the University of Rochester Residency Program in Diagnostic Radiology. The program has a distinguished history and has trained radiology residents for almost 50 years. During that time the department has undergone enormous growth and evolution. Currently, the department is divided into specialty radiology divisions. These include Neuroradiology, Vascular and Interventional Radiology, Musculoskeletal Radiology, Thoracic Radiology, Abdominal Imaging, Women's Imaging, Pediatrics, Nuclear Medicine and Community Radiology. The residents are exposed to each specialty area and work closely with faculty members who have established expertise in these disciplines. The University of Rochester Hospital is a tertiary care facility and a Level I trauma center. Residents within the radiology residency training program are able to gain experience in both simple and complex medical problems. The department enjoys a warm and collegial relationship with other training programs within the hospital. Radiology residents interact with residents from other residency programs at many interdisciplinary conferences. The specialty nature of the Department of Imaging Sciences provides advanced training in such modalities as interventional radiology and magnetic resonance imaging. The technology base of the department is "state of the art" with the latest CT, MR, PET and information systems technology. The training programs are designed to enable residents to acquire and demonstrate the knowledge, skills, and judgment necessary for competence in the practice of Radiology/Nuclear Medicine. This is primarily achieved by involvement in clinical case material under direct supervision and guidance of the faculty. More formal teaching supplements this educational process by providing lectures, demonstrations and conferences as well as electronic teaching aids. Competency in radiology consists of the ability to plan appropriate and most cost effective sequences to be performed, obtaining these studies with utmost concern of patient care, and transferring necessary information to the referring clinician in a timely manner. Residents are to learn not only medical information and interpretation of radiological images but to obtain competency in transferring this information in an efficient and effective manner. This is based on having the resident obtain background knowledge of the patient including any treatment, which may modify radiographic appearance or examination requests. The core knowledge, which the resident radiologist must become familiar, (and which will require continuing study for the rest of one’s professional life), concerns the variety of pathologic findings that may be detected on images due to disease and the differentiation of these from normal, normal variations and technical artifacts. The resident must also learn to direct support personnel in administrative matters such as information transfer, storage and retrieval in order to assume competent and responsive consultative services and quality patient care. The orientation program, for new residents, consists of early rotations through the basic services of chest, musculoskeletal, CT, and abdominal radiology. Orientation also includes a series of special teaching sessions on common radiology practices and procedures. Further instruction is presented during regularly scheduled departmental conferences. Residents are to be concerned and involved with quality assurance and other non-imaging issues involving total patient management during the radiologic process and are required to participate in a monthly quality assurance conference.
  6. 6. 5 FACULTY Chair Waldman, David L., M.D., Ph.D. Chair Professors Adams, Mark J. M.D., M.B.A. Associate Chair; General Radiology Burgener, Francis A., M.D. Co-Director: Musculoskeletal Radiology; General Radiology Deveikis, John, M.D. Neuroradiology (November 1, 2007) Dogra, Vikram, M.D. Associate Chair of Research Ekholm, Sven, M.D., Ph.D. Director : 3T MRI Foster, Thomas H., Ph.D. Director: Physics Training Program; Radiologic Physics Fultz, Patrick J., M.D. Director: Cross-Sectional Imaging Meyers, Steven P., M.D., Ph.D. Ambulatory Services; Neuroradiology Ning, Ruola, Ph.D. Radiology Physics and CT Research O'Mara, Robert E., M.D. (P-T) (Emeritus) Nuclear Medicine Rubens, Deborah J., M. D. Associate Chair, Special Imaging; Ultrasound; Abdominal Imaging Skucas, Jovitas, M.D. (P-T)(Emeritus) GI/GU Smith, Edward M., Sc.D. Nuclear Medicine Physics; Continuing Education Wandtke, John C., M.D. Vice Chair; Director: General Radiology; Head, Chest Radiology, Director: Diagnostic Radiology Residency Program Westesson, Per-Lennart, M.D., Ph.D., D.D.S. Director: Neuroradiology, Neuroradiology Fellowship Zhong, Jianhui, Ph.D. Director: MR Research Associate Professors Bernstein, Allan, M.D. Ambulatory Services Chengazi, Vaseem, M.D., Ph.D. Director: Nuclear Medicine, Director: Nuclear Medicine Residency Program Dombroski, David, M.D. Director: Cross-Sectional Imaging Fellowship; Medical Student Teaching, Cross-Sectional Imaging Hollenberg, Gary M., M.D. Ambulatory Services; Abdominal Imaging Holzwasser, Gerald, M.D. General Radiology, Emergency Radiology Klionsky, Nina B., M.D. Head, Pediatric Radiology; Director: Pediatric Radiology Fellowship Kwok, Wing-chi E. Ph.D. MRI Physics and Research Lee, David E., M.D. Director: F. F. Thompson Monu, Johnny U. V., M.D. Co-Director: Musculoskeletal Radiology, Director: Musculoskeletal Radiology Fellowship Program O’Connell, Avice, M.D. Director: Women’s Imaging Saad, Wael, M.D. Vascular Interventional Radiology Sahler, Lawrence G., M.D. Vascular Interventional Radiology, Chief GI/GU, Women’s Imaging Shrier, David A., M.D. Ambulatory Services, Neuroradiology Strang, John G., M.D. Director: PET/CT Center Voci, Susan L., M.D. Ultrasound; Chief of Ultrasound Wang, Henry Z., M.D., Ph.D. Neuroradiology, Director: MR Center Weinberg, Eric P., M.D. Director: Ambulatory Services at University Medical Imaging Assistant Professors Adjei, Osbert, M.D. General Radiology, Highland Hospital Chan, Him Wing, M.D. General Radiology Chen, Shi-Yu, M.D. F. F. Thompson
  7. 7. 6 Davis, Delphine, Ph.D. Coordinator: Radiology Research Elvey, Simone, M.D. General Radiology, Highland Hospital Farzanegan, Farhad, M.D. F.F. Thompson Hainen, Ronald L., M.D. F. F. Thompson Holzwasser, Gerald R., M.D. General Radiology; Emergency Radiology Jones, Luann T., M.D. Pediatric Radiology Kamalsky, Joan, M.D. General Radiology Kitanosono, Takashi, M.D. Vascular-Interventional Radiology Klein, Deborah J. M.D. (P-T) Pediatric Radiology Kolodny, Leonard B., M.D. General Radiology, Neuroradiology, Highland Hospital Ormanoski, Margaret, D.O. Cross-Sectional Imaging Patel, Nikhil, M.D. Head; Vascular-Interventional Radiology Puri, Savita, M.D. Nuclear Medicine Saad, Wael E., M.D. Vascular-Interventional Radiology Sahler, Lawrence G., M.D. Vascular-Interventional; Chief, GI/GU; Women’s Imaging Sasson, Talia, M.D. Director; Vascular-Interventional Radiology Fellowship Program Seo, Gwy Suk, M.D. Musculoskeletal Radiology Tan, Brian, M.D. General Radiology, Highland Hospital Tan, Raymond, M.D. Chief, Radiology, Highland Hospital Vyas, Rajashree, M.D. Pediatric Radiology Zayas, Vanessa, M.D. Ambulatory Services Zuley, Margarita Women’s Imaging Zynda-Weiss, Andrea, M.D. Ambulatory Services Fellows Azodo, Uchendu, M.D. Musculoskeletal Radiology Bhatt, Shweta, M.D. Cross-Sectional Imaging, Research Dieudonne, Gregory Musculoskeletal Radiology Kathuria, Sudhir, M.D. Neuroradiology Kim, Tiak, M.D. Neuroradiology Kolar, Balasubramanya, M.D. Neuroradiology Kumar, Virendra, M.D. Neuroradiology Manelis, Joshua, M.D. MRI, University Medical Imaging Oh, Richard, M.D. Musculoskeletal Radiology Rosella, Peter, M.D. MRI, University Medical Imaging Sharma, Ashwani, M.D. Neuroradiology Siddall, Kristina, M.D. Women’s Imaging Sidhu, Ravinder, M.D. Cross-Sectional Imaging Srinath, Guruprasad, M.D. Neuroradiology Timberlake, Carmen, M.D. Musculoskeletal Radiology Varnis, Charlene, M.D. MRI, University Medical Imaging Webber, Brian, M.D. MRI, University Medical Imaging
  8. 8. 7 RESIDENTS PGY 5 Residents in Radiology Chang, Hannah, M.D. University of Vermont 2003 Christensen, Jared, M.D. 2 University of Vermont 2003 Lin, Edward, M.D. University of Rochester 2003 Markhardt, B. Keegan, M.D. University of Wisconsin 2003 Mikityansky, Igor, M.D., MPH University of Rochester 2002 Patel, Gaurav, M.D. 1 University of Virginia 2001 Shyu, Chandler, M.D. University of Rochester 2002 Sides, Corey, M.D. Tufts University 2003 Wandtke, Ben, M.D. 2 University of Rochester 2003 PGY 4 Residents in Radiology Barshay, Veniamin, M.D. University of Rochester 2003 Butani, Devang, M.D. University of California @ Irvine 2004 Cesarz, Malin, M.D. Medical College of Wisconsin 2004 Conde, Anthony, M.D., M.P.H. Ponce School of Medicine 2001 Elsherief, Ahmed, M.D. Drew/ UCLA 2004 Huang, Brady, M.D. 2 University of Rochester 2004 Klekers, A.R. (Albert), M.D. Wake Forest 2004 Lee, Jerry, M.D. University of Rochester 2002 Madoff, Samuel, M.D. 2 University of Rochester 2004 Malhotra, Ajay, M.D. Baba Farhid University 2000 Mirza, Salman, D.O. NY College of Osteopathic Medicine 2004 Mooney, Scott, M.D. NY Medical College 2004 PGY 3 Associates in Radiology Cassar, Scott, M.D. University of Rochester 2005 Camarena, Jacinto, M.D. Howard University 2005 McCabe, Sam, M.D. SUNY @ Buffalo 2005 Gong, Richard, M.D. New York Medical College 2005 Majewski, Sara, M.D. SUNY @ Buffalo 2005 PGY 2 Assistants in Radiology Ginat, Daniel, M.D. New York University School of Medicine 2005 Hedegard, Wade, M.D. University of Minnesota-Minneapolis 2006 Hubeny, Charles, M.D. University of Missouri-Kansas City 2006 Johnson, Nate, M.D. University of Kansas 2006 Mosley, Christopher, M.D. St. Louis University 2002 O’Connor, Daniel, M.D. Tulane University 2006 Sarang, Trushar, M.D. University of Texas Southwestern @ Dallas 2006 Siripun, Lisa, M.D. Mahidol University, Bangkok Thailand 2000 Tuttle, David, M.D. University of Rochester 2006 NUCLEAR MEDICINE RESIDENCY PROGRAM No current resident 1 Radiology, Interventional pathway 2 Administrative chief residents 3 Senior chief resident
  9. 9. 8 EDUCATION COMMITTEE This is a committee with faculty and resident representation that is charged with oversight of all issues related to the department’s educational programs undergraduate medical education (UME), graduate medical education (GME), and continuing medical Evaluation (CME) programs. The committee meets monthly; more often as needed. Minutes are distributed to all members. The committee regularly evaluates the effectiveness of the residency program in meeting its goals and objectives, reviews resident benefits and requests, resident call and rotation schedules, and has input in choosing chief residents and resident award nominees. Residents who have issues to be addressed by the Education Committee should bring these to the attention of the chief residents who are members of the committee. Chair: J. Wandtke, M.D. Associate Director: N. Patel, M.D. Members: V. Chengazi, M.D., Ph.D. V. Dogra, M.D. L. (Teschmacher) Jones, M.D. J. Strang, M.D. R. Vyas, M.D. H. Wang, M.D., Ph.D. Resident Representatives: J. Christensen, M.D. B. Huang, M.D. S. Madoff, M.D. B. Wandtke, M.D. Ex-officio: D. Waldman, M.D., Ph.D. D. Rubens, M.D. Residency Coordinator: I. Mackey Education Coordinator: H. Stiner
  10. 10. 9 EDUCATIONAL PROGRAMS GENERAL DIAGNOSTIC RADIOLOGY The University of Rochester/Strong Memorial Hospital residency program is a four-year ACGME accredited training period in diagnostic radiology. The program extends from PGY-2 through PGY-5 levels. An ACGME approved clinical PGY-1 is necessary before beginning radiology training. This radiology program provides experience in general diagnostic radiology through sub-specialty areas of pulmonary, abdominal, emergency, neurological, musculoskeletal, and pediatric radiology. Special experience in ultrasonography, computed tomography, magnetic resonance imaging, and nuclear medicine is an important focus of the program. There is also training in women's imaging, vascular and interventional procedures, and radiation physics. Specialty rotations are assigned at levels of increasing sophistication and experience. Appropriate responsibilities are available for procedures, film interpretations, teaching and consultation as the resident progresses though the program. A faculty of full and part-time radiologists and PhDs with subspecialty expertise in their respective areas participates in supervision, teaching, and research. Beginning July 1, 2006, USMLE Steps 1, 2, 3 must be successfully completed in order to be approved to take the American Board of Radiology oral (final) examinations. Residents are required to make application to take board examinations during the first year of residency. All residents are expected to appear for the physics and clinical written ABR examination at the beginning of the second year and beginning of the third year of residency, respectively, with no exception. Should a problem arise, prior written permission must be obtained from the Program Director.
  11. 11. 10 TYPICAL RESIDENT CURRICULUM MONTHS Abdominal Imaging: GI/GU 6 Angio/Interventional 4 Cardiac 1 Chest 3 CT: Body 4 Emergency 1 • Night – plain film 2 • Emergency night – CT 2 MRI: Body 1 Musculoskeletal 4 Neuro: includes MRI 4 Nuclear Medicine and PET and Cardiac 4 Peds 4 Ultrasound 4 Obstetrical Ultrasound .5 Mammography 3 AFIP 1 Total required 48.5 Electives: 3.5 Total 52.0
  12. 12. 11 RESIDENT GOALS AND OBJECTIVES BY ROTATION The Department of Imaging Sciences follows the competency requirements as set by the Accreditation Council for Graduate Medical Education (ACGME) and follows its guidelines. Each rotation therefore, has incorporated these six competencies into its educational goals and objectives. These competencies are listed in RED at the beginning of each goal and/or objective. Residents receive these goals and objectives one day prior to the start of their rotations by way of the E*Value System and also have easy access via the printed version of the 2007 - 2008 Residency Manual and the Imaging Sciences website (.pdf format): http://www.urmc.rochester.edu/radiology
  13. 13. 12 ABDOMINAL IMAGING The radiology resident will rotate through GI and GU procedures and other abdominal imaging rotations will be completed within the first two years of radiology residency (PGY2 and 3). The final rotations will be completed within the third or fourth year of the radiology residency program. The learning experience takes place in the following ways: one-on-one training during the clinical workday; Resident conferences given throughout the year, which will both be didactic and case conference in approach; weekly abdominal imaging conferences. General GI textbooks and specific articles are recommended to the resident throughout the year. GASTROINTESTINAL RADIOLOGY First Rotation Goals Medical Knowledge, Patient Care, Professionalism, Interpersonal and Communication Skills • The resident should begin to learn the skills of fluoroscopy: o He/she should become facile with the fluoroscope. o Begin to develop hand/eye coordination during the examination. o To become facile with a basic fluoroscopic procedures: upper GI-single and biphasic; barium enema-single and double contrast; esophagram-single and biphasic; small bowel exam-per oral and entercolysis; swallow study; t-tube cholangiogram; NJ and NG tube placement under fluoroscopy. o Become familiar with radiation concerns during GI fluoroscopy: the various components of contribution of patient radiation during the exam; ways to decrease both patient and staff radiation exposure without compromise of diagnostic outcome; the differing radiographic techniques depending on contrast agent used. o To assess the adequacy of the various fluoroscopically obtained GI tract examinations. • The resident should begin to understand the normal, normal variant, and pathologic states of the oral pharynx, esophagus, stomach, duodenum, mesenteric small bowel, and colon as examined with contrast. Plain image interpretation is also accomplished. ERCP’s from the GI lab are interpreted. • The resident will be made aware of the importance of patient/MD relationship during the GI examination. • The resident will also be made aware the importance of communication with the referring clinician. Both in regards to a well crafted prompt report, as well as to make immediate contact when certain abnormal findings are found at examination. • The resident will begin to learn of the appropriate use of various contrast agents related to the GI tract and the pancreaticobiliary tree. Second Rotation Goals Medical Knowledge, Patient Care • The residents will review the skill if needed at fluoroscopy. Not only will the resident be instructed to become more facile with the fluoroscopic exam, he/she will also now be taught nuances to facilitate the various GI examinations at fluoroscopic exam. The resident should continue to increase in the facilitation of the basic GI examinations as stated under the first year rotation. A review and more information related to radiation concerns will be given. • Further detail will be given to the GI tract pathology as begun in the first rotation.
  14. 14. 13 • At this time the resident rotating through a second time will probably have undergone ultrasound and CT rotations of the abdomen. Thus, there will be increasing correlation between cross-sectional images obtained possibly prior or following the examination done in fluoroscopy. Also this resident should be made aware of the place of the various imaging techniques of the abdomen in order to structure an imaging approach to different clinical problems using fluoroscopy, plain film, and axial imaging studies. Third Rotation Goals Patient Care, Professionalism, Interpersonal and Communication Skills • The residents should now be comfortable with the basic fluoroscopic exams and will be encouraged to further modify the basic exam to answer specific questions at fluoroscopy and develop their own fluoroscopic pattern. • During this rotation there will be brief reviews as needed in the following areas: radiation concerns, various contrast agents, patient/physician relationship, and the importance of reporting to the clinician. • There will be a continued discussion of the various pathologies related to the GI tract. With further axial imaging studies, these discussions can be carried into both CT and ultrasound as well as contrast and plain film abnormalities related to the abdomen and GI tract. • Along similar lines, the actual imaging studies that are associated with the case can also be better correlated with the present exam and again imaging strategies for order of examination. GENITOURINARY RADIOLOGY General Goals Medical Knowledge, Patient Care, Interpersonal and Communication Skills, Professionalism Residents rotate through the section of Genitourinary Radiology during each of their four years of training. Residents will be taught the skills necessary to interpret plain films, fluoroscopy exams, US, CT and MRI. The training will include one-to-one training during the workday, resident conferences throughout the year, both didactic and case conferences. General GU textbooks and specific articles are recommended to the residents throughout the year. The residents will receive an introduction in genitourinary anatomy and pathology. They will learn the value of each modality enabling them to optimize patient care and guiding referring physicians. It is expected that residents will participate in the performance of examinations done in the section. They will obtain consents and perform infusion or injection of contrast media. The residents at all levels will be expected to show interesting cases in the GU conferences to their fellow residents. The residents will learn to dictate concise and appropriate radiography reports and to serve as consults to referring physicians and house staff. First Year GU Radiology Goals Patient Care, Medical Knowledge, Professionalism, Interpersonal and Communication Skills • The resident should begin to learn the skills of fluoroscopy and intravenous exams. o He/she should become facile with the fluoroscope. o Begin to develop hand/eye coordination during the examination. o To become facile with basic fluoroscopic procedures: cystogram, voiding cystourethrogram, retrograde ureterogram, loop-o-gram, nephrostogram, hysterosalpingogram. o Become familiar with radiation concerns during GU fluoroscopy: the various components of patient radiation exposure during the exam; ways to decrease both patient and staff radiation exposure without compromise of the diagnostic outcome.
  15. 15. 14 • The resident should begin to understand the normal, normal variant and pathologic GU anatomy. Plain image interpretation and intravenous studies are also accomplished. • The resident will be made aware of the importance of the patient/MD relationship during the GU examination. • The resident will also be made aware of the importance of communication with the referring clinician. This includes a well-crafted prompt report, as well as to make immediate contact when certain abnormal findings are found at examination. • The resident will begin to learn the appropriate use of various contrast agents related to the GU tract. Second Year GU Radiology Goals Patient Care, Medical Knowledge, Interpersonal and Communication Skills • The residents will review their skill of fluoroscopy. Not only will the resident be instructed to become more facile with the fluoroscopic exam, he/she will also be taught nuances to facilitate the various GU examinations at fluoroscopic exam. The resident should continue to increase their efficiency of the basic examinations as stated under the first year rotation. • Further detail will be given to the GU tract pathology as begun in the first rotation. • By this time the resident will have undergone ultrasound, MRI and CT rotations of the abdomen. There will be increasing correlation between cross-sectional images obtained prior or following the examination done in fluoroscopy. The resident should be made aware of the place of various imaging techniques of the abdomen in order to structure an imaging approach to different clinical problems using fluoroscopy, plain film, and axial imaging studies. • The residents should be able to assist in organizing the workday and working with the first rotation radiology residents. Third Year GU Radiology Goals Patient Care, Medical Knowledge, Professionalism, Interpersonal and Communication Skills • The residents should now be comfortable with the basic fluoroscopic exams and will be encouraged to further modify the basic exam to answer specific questions at fluoroscopy and develop their own fluoroscopic pattern. • During this rotation there will be brief reviews as needed in the following areas: radiation concerns, various contrast agents, patient/physician relationship, and the importance of reporting to the clinician. • There will be a continued discussion of the various pathologies related to the GU tract. With further axial imaging studies, these discussions can be carried into CT, MRI, and ultrasound as well as contrast and plain film abnormalities related to the abdomen and GU tract. Fourth Year GU Radiology Goals Professionalism, Interpersonal and Communication Skills • The residents should be at a level to completely organize a day’s schedule and supervise more junior residents. • The forth year resident is encouraged to write up for publication GU case reports or research experience in their prior years. • The dictated reports will be refined, if needed, for clinical practice. Recommended Reading: 1. Gastrointestinal Imaging: The Requisites, Halpert, Mosby, 2006 2. Genitourinary Radiology: Requisites Series by Zagoria, Mosby, 2004 3. Gastrointestinal Imaging: A Pattern Approach, Eisenberg, Lippincott, Wms & Wilkins, 2001 4. Radiology of the Kidney and Genitourinary Tract, Davidson, Elsevier, 1999
  16. 16. 15 ANGIO VASCULAR-INTERVENTIONAL RADIOLOGY Throughout the four-year residency in Diagnostic Radiology Residency, each resident completes four one-month rotations in Vascular and Interventional Radiology. The residents in Diagnostic Radiology work closely with the resident (fellow) in Vascular-Interventional Radiology during each one-month rotation. The ensuing outline will detail the goals and objectives for each one-month rotation on the service. First Rotation Goals Medical Knowledge • Demonstrate the ability to obtain an informed consent. • Demonstrate the ability to obtain pertinent patient information from the PACS system and the patient chart prior to the performance of an invasive procedure. • Demonstrate timeliness and responsible work ethic. • Demonstrate the ability to monitor and follow patients assigned to him/her during the rotation and have at hand pertinent clinical information i.e. chest tube output, abscess tube output, findings from follow-up chest/abdomen/pelvic CT scans. Objectives Medical Knowledge • Name the pertinent labs that must be known prior to performing an arteriogram, a biliary drainage, and a percutaneous nephrostomy or abscess drainage. • Describe the superficial and deep venous system of the upper and lower extremity. • Describe the arterial anatomy of the lower extremity, the pelvis, and the abdomen. • Name the indications for PICC line placement. Second Rotation Goals Medical Knowledge • Ability to dictate in a clear, succinct fashion on a timely basis. • Knowledge of appropriate choice of antibiotics for bacterial coverage prior to percutaneous nephrostomy, biliary drainage, abscess drainage. • Demonstrate safety with sharps and timely removal of sharp objects from the tray and placement in the sharp's box. • Knowledge of deep venous disease including the indications for venography, duplex ultrasound, MR venography and therapeutic treatment options. • Knowledge of visceral arterial anatomy and common normal variants (i.e. replaced right hepatic artery, left gastric-left hepatic etc.). • Knowledge of function of pleurovac system and Heimlich Valve. Objectives Medical Knowledge • Name the arterial anatomy of the external and internal iliac arteries. • Name the venous anatomy of the chest, abdomen and pelvis; identify collateral pathway between the azygos system and svc and IVC.
  17. 17. 16 • Name and identify the renal arterial branches and describe Brödel's avascular zone and it relationship to percutaneous nephrostomy. • Describe the intrahepatic and extrahepatic biliary system and anatomy; describe the specific biliary complications that can result from laparoscopic gallbladder removal. • Describe the risk factors for pneumothorax secondary to percutaneous lung biopsy. • Describe the risk factors for hemoperitoneum secondary to liver biopsy. • Describe different types of aneurysms i.e. atherosclerotic, mycotic, post-traumatic and give an example of each. • Discuss when thrombolytics are helpful in chest tube drainage. • Discuss the indications for gastrostomy tube placement, gastrojejunostomy placement, and jejunostomy tube placement. Third Rotation Goals Medical Knowledge • Knowledge of peripheral vascular disease including risk factors, evolution of atherosclerotic plaque, site of plaque formation. • Knowledge of method of evaluating the patient with peripheral vascular disease from noninvasive to invasive modalities (history, physical, pulse volume recordings, duplex sonography, MR angiography, diagnostic arteriography. • Knowledge of complications of diagnostic arteriography and methods of reducing the incidence of these complications and their management. • Knowledge of contrast agents: ionic agents, nonionic agents and indications for premedication prior to contrast administration as well as medical protocol. • Ability to recognize various contrast agent reaction and appropriate treatment regimens. Objectives: Decision-Making, Value Judgment Skills Medical Knowledge, Interpersonal and Communication Skills • Describe the various access routes for hemodialysis: Cimino-Brescia fistula, Bridge and Loop Gortex Dialysis Grafts, and dialysis catheters. • Describe when a temporary dialysis catheter is warranted and when a tunneled dialysis catheter is indicated; name access sites that appropriate for placement. • Name the central vein that is considered malpractice to place a temporary or tunneled dialysis catheter. • Describe when metallic stents would be indicated to preserve access for continued dialysis • Name risk factors for contrast induced nephrotoxicity. • Discuss when it is appropriate to remove an abscess tube; what factors must be known prior to removal and if imaging is needed. • Discuss the indications and contraindications for IVC Filter placement; describe the currently available FDA approved filters, its respective advantages and disadvantages. • Discuss the checklist to be assessed prior to proceeding with a pulmonary arteriogram. • Draw a left bundle block pattern, as it would appear on a 12 lead EKG. Define when a temporary pacer is required prior to pulmonary arteriography. Discuss the contraindications to pulmonary arteriography. • Discuss the advantages of tunneled catheters for therapy versus PICC lines versus Ports. • Discuss when each would be appropriate/ inappropriate.
  18. 18. 17 Fourth Rotation Goals Medical Knowledge • Knowledge of the mechanism of angioplasty • Knowledge of complications of angioplasty • Knowledge of indications for vascular stent placement • Knowledge of indications for renal angioplasty and stent placement • Knowledge of indications for biliary stent placement • Knowledge of indications and contraindications for TIPS placement • Knowledge of indications of gastrostomy tube placement Objectives: Decision-Making, Value Judgment Skills Medical Knowledge, Interpersonal and Communication Skills • Discuss various embolic agents that are clinically available i.e. liquids, particulates, coils; discuss when each type of agent is clinically indicated and contraindicated • Discuss the post-embolization syndrome • Discuss the arterial blood supply to the uterus and ovaries; what is the incidence of ovarian failure after uterine artery embolization • Discuss cholesterol embolization, its causes, and treatments (if any) • Discuss hypercoagulable states • Discuss heparin induced thrombocytopenia • Discuss anticoagulants (unfractionated heparin, low molecular weight heparin, coumadin) and where in the coagulation cascade each works; discuss antiplatelet agents (ReoPro, Aggrastat, integrelin, clopidogrel) • Discuss the types of portal hypertension (dynamic, presinusoidal, sinusoidal, postsinusoidal) and causes of each; discuss the hepatic venous anatomy and indications for free and wedged hepatic venous hemodynamic assessment. • Discuss the complications that can occur during tunneled dialysis catheter placement; specifically, discuss how to lessen the incidence of air embolism and treatment if this were to happen. • Discuss the dangers of local thrombolytic therapy and discuss compartment syndrome as it relates to reperfusion of a threatened ischemic extremity • Discuss when local thrombolytic treatment is contraindicated. Why is echocardiography a necessary test prior to initiating local thrombolytic therapy in acute ischemia secondary to embolic disease? • Discuss different sclerosing agents for lymphoceles or cysts. • Define pelvic congestion syndrome and how is it analogous to varicocele formation in the male and their treatment options. TECHNICAL SKILLS THAT SHOULD BE MASTERED DURING THE FOUR MONTHS ON VASCULAR-INTERVENTIONAL RADIOLOGY: First Rotation Technical Skills Patient Care • Performance of PICC line under fluoroscopic and ultrasound guidance. • Performance common femoral venous puncture. • Performance of a single wall puncture of common femoral artery. • Correct access site compression after arteriography. • Performance of image guided biopsy.
  19. 19. 18 Second Rotation Technical Skills Patient Care • Manual dexterity in using pigtail catheter to go around the aortic bifurcation. • Manual dexterity using the Omni Selective, Cobra, and SOS Omni. • Basic skills in suturing; interrupted, running, and sub-cuticular suturing techniques; knows when to use absorbable and non-absorbable suture. • Performance of ultrasound-guided puncture of the internal jugular vein. • Ability to perform a tunneled dialysis catheter placement in the internal jugular vein. Third Rotation Technical Skills Patient Care • Ability to place an IVC Filter. • Ability to safely reform a Simmons catheter and knows which one to use for the situation at hand. • Ability to perform pulmonary arteriography and knowledge of appropriate catheters use. • Ability to perform ultrasound guided percutaneous nephrostomy and biliary drainage. Fourth Rotation Technical Skills Patient Care • Ability to perform an antegrade femoral puncture. • Ability to perform graded ultrasonic compression to treat a puncture site pseudoaneurysm. • Ability to perform post-traumatic embolization of pelvic bleeders. • Ability to perform visceral arteriography. • Ability to perform lung biopsies and place Heimlich Valves for post lung biopsy pneumothorax. Recommended Reading: 1. Interventional Radiology Secrets, Waldman, Hanley & Belfus, 2004 2. Handbook of Interventional Radiololgic Procedures, Kandarpa, Lippincott, Wms & Wilkins, 2001 3. Interventional Radiology Review, LaBarge, Lippincott, Wms & Wilkins, 2000
  20. 20. 19 CARDIAC RADIOLOGY CT & MR Medical knowledge, patient care Anatomy of the heart and great vessels Increase knowledge of • normal morphology, standard nomenclature and structure • embryology, fetal circulation • normal cardiac and peri-cardiac structures • Eustachian valve • Thesbesian valve/ coronary sinus • right and left atrial appendages • moderator band • endocardial cushion • arterioventricular valves (tricuspid and mitral) • semilunar valves (aortic and pulmonic) • Sinuses of Valsalva • Coronary arteries and major branches • Coronary veins including coronary sinus • Superior vena cava and deep mediastinal veins (e.g. azygous vein) • Pericardium • Pulmonary arteries and veins • Vascular regions supplied by the coronary arteries Medical knowledge, patient care, practice based-learning Common variants • Anomalous coronary artery • Left superior vena cava • Azygous continuation of the inferior vena cava Anatomy of the Heart • Atrial and ventricular situs • Identification of great vessels • Assess pulmonary arteries and veins • Identify systemic venous return • Normal adult heart measurements LV, LA, RV, RA, Aorta-wall thickness, diameter Patient care, professionalism, interpersonal and communication skills Techniques for imaging the heart and great vessels • Radiography, CT, MR Indications Coronary calcium scoring Cardiac CT and MR Coronary CTA and MRA Medical knowledge, patient care Physics and imaging considerations, including pulse sequences, ECG-gating techniques and respiratory compensation strategies • Valvular disease assessment • Blood flow quanitification • Coronary MRA • MR of the aorta • Pulmonary MRA • Atherosclerotic plaque evaluation • Wall motion studies
  21. 21. 20 • Myocardial perfusion and viability scanning Medical knowledge, patient care Cardiac Scintigraphy (including PET) • Indications, physics of imaging, advantages and limitations Multiple-gated acquisition (MUGA) Myocardial perfusion and viability scanning Shunt evaluation Required Lectures: View during the day or evening http://www.thoracicrad.org/education/index2.htm Cardiac CT STR 6001 Anatomy and Anatomic Pitfalls Lynn S. Broderick, MD STR 6002 Principles and Techniques Benoit Desjardins, MD STR 6003 Aortic Valve R.C. (Chip) Gilkeson, Jr., MD STR 6004 Function and Perfusion Suhny Abbara, MD STR 6005 Left Atrium and Pulmonary Veins Paul P. Cronin STR 6006 Pediatric Applications Donald P. Frush, MD Coronary CTA STR 6007 Anatomy Kevin M. Fahey, MD and presented by Lynn S. Broderick, MD STR 6008 Indications U. Joseph Schoepf, MD STR 6009 Soft Plaque Detection Andre J. Duerinckx, MD STR 6011 CV Disease on Non-Contrast CT Cristopher A. Meyers, MD STR 6012 Oncologic Cardiac Imaging Gregory W. Gladish, MD STR 6013 Pericardial Imaging Fernando R. Gutierrez, MD STR 6014 MR of Ischemic Heart Disease Gautham P. Reddy, MD, MPH STR 6015 MR of Cardiomyopathy Laura E. Heyneman, MD STR 6016 Chest Pain in the ED Charles S. White, MD STR 6017 Where Echo Fails: Value of Cardiac CT and MRI Robert M. Steiner, MD STR 6019 Low Dose CT: Practical Applications and Limitations Narinder S. Paul, MD STR 6020 Beyond Axial Imaging: Introduction to Multiplanar Reformats, Surface Resending and Volume Rending Thomas Warfel, MD, PhD Recommended Reading: 1. Cardiac CT Imaging: Diagnosis of Cardiovascular Disease, 2006, Budoff, Shinbane, Springer-Verlag 2. Cardiac CT Made Easy: An Introduction to Cardiovascular Multidetector Computed Tomography, 2006, Stillman, White, Informa Healthcare 3. CT of the Heart:Principles and Applications, Schoepf, 2004, Springer-Verlag 4. Cardiac Imaging: Case Review Series, Reddy, Steiner, 2005 Elsevier 5. Clinical Cardiac MRI: with Interactive CD-Rom, Bogaert, Al-Saadi, 2005, Springer-Verlag 6 MRI of the Heart and Vessels, Lombardi, Carlo Bartolozzi, 2005, Springer-Verlag
  22. 22. 21 CHEST Year One: First, four-week rotation Goals Professionalism, Medical Knowledge, lnterpersonal and Communication Skills, System-based Practice After completion of the first chest rotation with resident will • Demonstrate a responsible work ethic. • Demonstrate learning of knowledge-based objectives. • Accurately and concisely dictate a chest radiograph report. • Communicate effectively with referring clinicians and supervisory staff. • Understand standard patient positioning in chest radiology. • Demonstrate knowledge of the “ACR Standards for Communication, Adult Chest”. • Demonstrate the ability to obtain pertinent patient information relative to radiologic examinations. Objectives Medical Knowledge At the end of the first chest rotation the resident will demonstrate learning of at least 50%of the following knowledge-based objectives • Normal anatomy of the chest • Interstitial lunch disease • Alveolar lung disease • Monitoring and support devices – “tubes and lines” • Mediastinal masses • Solitary and multiple pulmonary nodules • Acute chest trauma • Chest wall, pleura and diaphragm • Upper lung zone disease • Atelectasis • Peripheral lung disease • Airways • Unilateral hyperlucent lung • Neoplasms of the lung • Immunocompromised patient • Cardiac and congenital lung disease Technical, Communication and Decision-Making Skills Interpersonal and Communication Skills, Professionalism At the end of the first rotation, the resident will demonstrate • Dictate understandable chest radiograph reports that include patient name, medical record number, date of exam, date of comparison exam, type of exam, indication for exam, brief and concise description of the findings and short impression. • Call ordering physicians about all significant or unexpected radiologic findings and document who called and the date and time of the call in the dictated report. • Obtain relevant patient history from computer records, dictated reports, or by calling referring clinicians. • Describe patient positioning and indications for a PA, lateral, decubitus and lordotic chest radiographic. • Decide when it is appropriate to obtain help from supervisory faculty in interpreting radiographs or answering questions for referring clinicians.
  23. 23. 22 • Arrive for the rotation assignment on time and prepared after reviewing recommended study materials. • Utilize previous radiologic exams (e.g. prior chest radiographs and/or CT scans) in the interpretation of current studies. Conferences and study materials • Weekly resident chest conference. • Residents are expected to place one case into the teach file, each rotation. The case should have references to indicate an understanding of evidence-based medicine. Year Two: Second, four-week rotation Goals Medical Knowledge, Systems-based Practice After completion of the second chest rotation, the resident will • Demonstrate learning of knowledge-based learning objectives • Continue to build on chest radiograph interpretive skills. • Demonstrate an understanding of “ACR Appropriateness Criteria” for chest radiology. Objectives Medical Knowledge The resident will demonstrate learning of at least 75% of the knowledge-based objectives introduced in Year One. At the end of the second chest rotation, the resident will demonstrate the following: Technical, Communication and Decision-Making Skills: Medical Knowledge, Patient Care, Interpersonal and Communication skills, Systems-based Practice • Appropriately protocol all requests for chest CT, given the patient histories. • Demonstrate the ability to effectively present interesting cases at the radiology case conference to other residents by choosing and showing appropriate interesting or quality assurance cases, interacting with residents and guiding them though the cases and being prepared to present a brief discussion of the diagnoses for each case. • Demonstrate the ability to manage a patient contrast reaction that occurs during a chest CT examination. • Acts as a consultant for referring clinicians, recommending appropriate imaging studies based on “ACR Appropriateness Criteria. Conferences • Same as for Year One. Years Three and Four: Third, four-week rotation After completion of the third chest rotation, the resident will Medical Knowledge, Interpersonal and Communication Skills • Demonstrate learning of knowledge-based objectives. • Refine skills in interpretation of radiographs and CT scans of the chest. • Develop skills in protocoling, monitoring, and interpretation of HRCT scans. • Become a more autonomous consultant and teacher. • Correlate pathological and clinical data with radiographic and chest CT findings.
  24. 24. 23 Objectives Medical Knowledge At the end of the third chest rotation, the resident will demonstrate knowledge of 100% of the knowledge- based objectives introduced in Year One, in addition to the objectives listed below: • Identify a secondary pulmonary lobule on HRCT. • Identify and give appropriate differential diagnoses when the patterns of septal thickening, perilymphatic nodules, bronchiolar opacities (“tree-in-bud”), air trapping, cysts and ground glass opacities are seen in HRCT. • Identify the major anatomic structures of the chest and mediastinum on chest MRI. Technical and Communication Skills Medical knowledge, Interpersonal and Communication Skills, Professionalism After completion of the third chest rotation, the resident will demonstrate the following technical, communication and decision-making skills: • Dictate accurate, concise chest radiograph and CT scan reports with at least 75% accuracy; the reports will contain no major interpretive errors. • Correctly protocol all HRCT exams, obtaining inspiratory, expiratory and prone images in collaboration with a pathologist, present an interesting cardiopulmonary case, with a confirmed diagnosis, correlating clinical history with pathology and radiologic imaging, to residents and faculty. • In collaboration with a pathologist, present an interesting cardiopulmonary case, with a confirmed diagnosis, correlating clinical history with pathology and radiologic imaging, to residents and faculty. • Work in the reading room independently, assisting clinicians with radiologic interpretation and teaching other residents and medical students assigned to chest radiology. Conferences • Same as for Year One. Recommended Reading: 1. Thoracic Radiology: The Requisites, McCloud, Mosby, 1988 2. Chest Radiology: Plain Film Patterns and Differential Diagnosis, 5 th ed, Reed, Mosby, 2003 3. Chest – Diagnostic Imaging Series, Guerny, Amirsys, 2006
  25. 25. 24 CT - BODY Through the four-year residency in diagnostic radiology, each resident completes four, four-week rotations in body CT. The following outline presents goals and objectives for each four-week rotation. First Rotation Goals Medical Knowledge, Interpersonal and Communication Skills, Professionalism • Understand the basic physics of CT including slice thickness, pitch, helical vs. multi-row scanners, effects of mA and kV. • Learn the basic principles of contrast distribution particularly as applied to arterial and venous phase scanning. • Protocol and monitor CT studies. Modify protocols when appropriate. • Understand the principle of saline chaser. • Learn to recognize and treat contrast reactions. • Develop skills in interpretation of basic CT pathology. • Learn the appropriate format for dictation of CT reports. • Develop skills in consultation with house staff and referring physicians. Objectives Medical Knowledge Identify the CT appearance of the following pathology • Colon carcinoma • Esophageal carcinoma • Liver cancer • Lung cancer • Pancreas cancer • Gastric cancer • Lymphoma • Retroperitoneal adenopathy • Aortic aneurysm • Aortic dissection • Adrenal adenoma • Gallstones • Ascites • Bowel perforation with free air • Cavernous hemangioma of the liver • Cirrhotic liver • Liver metastases • Pancreatitis with pseudocyst • Renal cystic disease • Obstructive hydronephrosis due to ureteral calculus • Bowel obstruction • Active arterial extravasation • Shock bowel • Splenic laceration • Post traumatic urinary bladder leak • CT artifacts
  26. 26. 25 Second Rotation Goals Medical Knowledge, Interpersonal and Communication Skills, Professionalism, Patient Care • Refine interpretive skills with complex pathology. • Understand the principles of computed tomographic angiography. • Be able to identify life-threatening findings, particular in trauma patients. • Provide emergent provisional interpretation as needed. • Be able to direct the choice of imaging modality and protocol emergent studies. • Understand when referral to other imaging modalities is necessary. Objectives Medical Knowledge Identify the CT appearance of the following pathology: • Hepatic abscess • Pancreatic abscess • Renal abscess • Groin pseudoaneurysm • Biliary cancer • Budd Chiari Syndrome • Carcinomatosis with ascites • Sequela of cryoablation • Diaphragmatic hernia • Interloop abscess • Focal nodular hyperplasia of the liver • Hepatocellular carcinoma • Islet cell tumor of the pancreas • Renal oncocytoma • Complications of renal transplantation • Liver transplant complications • Cystic pancreatic neoplasm • Renal hypertension and varices • Retroperitoneal fibrosis • Von Hippel Lindau Syndrome Third Rotation Goals Medical Knowledge, Interpersonal and Communication Skills, Professionalism, Patient Care • Continue to expand the knowledge of CT anatomy and pathology begun in the first two rotations. • Assist fellows and technical staff in the performance of CT angiography and its interpretation. Objectives Medical Knowledge Identify the CT appearance of the following pathology: • CT angiography of endostent placement • CT angiography of renal donor evaluation • CT angiography of liver transplant candidate • Renal artery stenosis • Accessory renal arteries
  27. 27. 26 • Virtual colonoscopy • Thoracic outlet syndrome Fourth Rotation Goals Medical Knowledge, Interpersonal and Communication Skills, Professionalism, Patient Care • Continue to expand the knowledge of CT anatomy and pathology begun in the first three rotations. • Assist fellows and technical staff in the performance of CT angiography and its interpretation. • Participate in CT guided biopsy procedures. Objectives Medical Knowledge Identify the CT appearance of the following pathology: • CT angiography of endostent placement • CT angiography of renal donor evaluation • CT angiography of liver transplant candidate • Renal artery stenosis • Accessory renal arteries • Virtual colonoscopy • Thoracic outlet syndrome Recommended Reading: 1. Fundamentals of Body CT, Webb, WB Saunders, 2006 2. Multidetector Computed Tomography: Principles, Techniques and Clinical Applications, Fishman, Lippincott, Wms & Wilkins, 2000 3. High Resolution CT of the Lung, Webb, Müller, Naidich, 3 rd ed, Lippincott-Raven, 2000
  28. 28. 27 EMERGENCY RADIOLOGY Emergency Radiology Curriculum Adapted from the Society of Emergency Radiology Edited By R. A. Novelline, MD Objective: To define the content, structure for residents in Emergency Radiology. Medical Knowledge Central Nervous System Skull fractures Brain • Extra-axial hemorrhages: subdural and epidural hematoma • Parenchymal injuries: cortical contusion, gray matter, brainstem • Subarachnoid hemorrhage, Vascular injuries • Penetrating injuries • Herniation syndromes • Cerebral infarction: arterial infarction, venous infarction, • Diffusion perfusion imaging appearance Non-traumatic hemorrhage • Subarachnoid, parenchymal hemorrhage • Central Nervous System infections • Meningitis, abscess/cerebritis, subdural empyema • Dural sinus thrombosis • Reversible posterior leukoencephalopathy syndrome • Pituitary apoplexy Face and Neck Facial fractures • Orbital fractures: blow-out fracture • Zygoma , Isolated arch, zygomatic complex • Nasal fractures, naso-orbital-ethmoid fractures • Frontal fractures • Maxillary fractures: dentoalveolar, maxillary sagittal, LeFort Mandible fractures Ocular injuries: rupture, cellulitis Paranasal sinusitis Spine Initial assessment issues = "Clearance" in the Emergency Department. The evaluation of low-risk patients; high-risk patients (multitrauma), and patients with neurologic deficits Concept and Assessment of Instability. Concept: Mechanism of injury, radiographic patterns, normal variants, frequently. Cervical Trauma • Cranio-cervical / C1-C2 • Occipital condyle fracture • Atlanto-occipital dislocation / subluxation • Jefferson burst fracture, C1 - posterior arch • Dens fracture, Hangman’s fracture • Anterior subluxation / whiplash syndromes • Hyperextension sprain / spinal cord injury without radiographic abnormalities • Wedge compression, spinous process fractures • Burst compression, Flexion tear drop fracture, Facet dislocation • Articular mass and transverse process fractures • Corner Avulsion Fracture (extension teardrop)
  29. 29. 28 • Laminar fractures • Facet dislocation with fracture Thoraco-lumbar trauma • Compression fracture, Burst Fracture • Chance fracture, complex fracture-dislocation • Pathological fracture, traumatic injuries to intervertebral disks • Ostoemyelitis /discitis, epidural abscess Chest Chest trauma • Rib fractures, sternal and manubrial fractures • Hemothorax, mediastinal hemorrhage • Pneumothorax and pneumomediastinum • Pulmonary contusion, laceration, hematoma • Tracheobronchial injury • Esophageal tear, diaphragm injury • Pulmonary embolism • Acute pulmonary infections • Aspiration pneumonia • Airway foreign bodies Obstructive airway disease • ARDS: near-drowning, fat embolism syndrome • Esophageal rupture Cardiovascular Emergencies Myocardium and Pericardium • Myocardial infarction, laceration, contusion • Pericardial effusion. tamponade, pneumopericardium Aorta laceration, dissection, aneurysm Pulmonary edema, various etiologies Pulmonary embolism Abdomen Abdominal Trauma Hemoperitoneum and intraperitoneal fluid • Hemodynamic status assessment • Retroperitoneal hemorrhage • Gas collections: intraperitoneal and retroperitoneal • Active arterial extravasation on CT • Splenic and liver injuries • Gallbladder and biliary injuries • Bowel and mesenteric injuries • Pancreatic injuries • Renal and adrenal injuries • Bladder injuries: intraperitoneal and extraperitoneal • Abdominal wall injuries and diaphragmatic hernias Non-traumatic Abdominal Emergencies Peritoneal cavity • Ascities, peritonitis, abdominal abscess • Liver and biliary tract • Jaundice: obstructive and non-obstructive • Cholecystitis, pancreatitis • Urinary tract • Urinary stones, infection • Pyelonephritis, renal abscess • Gastrointestinal tract
  30. 30. 29 • Gastrointestinal hemorrhage • Bowel obstruction, bowel infarction, bowel infection • Appendicitis, diverticulitis, Infectious enteritis and colitis • Inflammatory bowel disease: Crohn disease, ulcerative colitis Male Genitourinary emergencies Urethral and penile trauma, foreign bodies, stones Scrotal and testicular trauma Acute non-traumatic scrotal conditions • Testicular torsion • Epididymitis, Orchitis, Epididymoorchitis • Acute fluid collections (Hydrocele, hematocele, pyocele) • Infarction, Fornier’s Gangrene • Abcess Upper Extremity Dislocations: • Scapulothoracic, Clavicle • Sternoclavicular, Acromioclavicular, Glenohumeral , elbow Fractures: • Scapular fractures • Humerus fractures • Proximal (head & neck), Shaft, Supracondylar, intra articular, including unicondylar, bicondylar and capetellar • Forearm fractures, wrist Pelvis and Hip Pelvis Fractures of isolated bones of the pelvis that do not involve the pelvic ring • iliac wing (Duvrney), sacrum, coccyx • avulsion: ant. sup. iliac crest apoph. - sartorius m • ant. inf. iliac crest apoph. - rectus femoris m • ischial tuberosity - hamstring ms • lesser troch. apoph. (femur) – iliopsoas Pelvic ring disruption. Disruption, ie, fracture or diastasis at two or more sites, the anterior and posterior pelvic arcs. • diffuse: open-book pelvic ring disruption • vertical shear • Types of pelvic ring disruption • Malgaigne (ipsilateral) • open - book Insufficiency fractures, Stress fractures Acetabular fractures (Involve only one side of the pelvic ring. Posterior column (most common) rim, anterior column, both columns Hip Dislocation • Posterior or posterosuperior pure fracture-dislocation. Fracture involves posterior or posterosuperior acetabular rim • Anterior (obturator) Fractures (usually associated with dislocation). • Posterior or posterosuperior acetabular rim • Anterior (Involve the acetabular "tear-drop") Proximal femur • Slipped capital femoral epiphysis (SCFE)
  31. 31. 30 • Salter-Harris physeal injuries • Fractures Head - usually associated with hip dislocation Neck - subcapital, transcervical, basicervical Trochanteric, intertrochanteric subtrochanteric, isolated fracture, greater trochanter Avascular necrosis Lower Extremity • Fractures: • Femoral shaft, Patella fractures • Tibial plateau, Tibial spine avulsion Tibial stress fractures, tibial and fibular shaft fractures Tibial plafond fracture (pilon fractures), ankle mortise injury, • Tarsal fractures, metatarsal fractures, Toe fractures • Cruciate and other ligamentous injuries of the knee, Meniscus tears • Achilles tendon and ligamentous injuries of the ankle • Knee dislocations, Tarso-metatarsal fracture dislocations (Lisfrancs fracture) • Septic arthritis, Diabetic foot infections Compartment syndrome Goals Patient Care, Professionalism, Interpersonal and Communication Skills Radiology residents will rotate through the Emergency Section during each of their four years of training. Over this time it is expected that residents will progressively develop their abilities to interpret imaging studies of emergency patients. Residents will be taught the practical clinical skills necessary to interpret plain radiographs. The skills to interpret “after hours” Neuroradiology, Ultrasound, Body CT scans, Nuclear Medicine, GI/GU and MRI exams will be taught in each of those specific sections. The residents will learn about Musculoskeletal, Chest and Abdominal conditions, which can be seen in an Emergency Radiology situation. The radiographic abnormalities will be taught with one-on-one teaching and in Radiology Conference presentations. A recommended reading list is provided to assist the radiology residents with their individual study efforts to learn about radiographic findings in these emergent conditions/diseases. The residents will learn to dictate concise and appropriate radiographic reports and to serve as consultants to referring physicians. During the day (Mon-Fri 8AM-5PM) , the resident will learn to provide prompt written or phone reports for Emergency patients, University Health Service, Occupational Medicine Clinic or other Out-patient Clinic patients which need a STAT report. During the evening and on weekends, the resident will also provide STAT verbal reports for inpatients in an efficient and professional manner.
  32. 32. 31 First year Residents (PGY 2) Day (8AM-5 PM), Evening (5-9 PM) & Weekends/ holidays (8 AM-5 PM) Knowledge Based Objectives Medical Knowledge • Learn the basic principles of Musculoskeletal, chest and Abdominal radiology with an emphasis on normal anatomy and normal variants on plain film exams. • Learn the types of injuries and Pathophysiology associated with acute trauma, and acute medical and surgical conditions. • Develop skills in the interpretation plain films of the chest, musculoskeletal and abdomen diseases in the setting of acute trauma. • Understand the basic physics of radiography and computed radiography. • Learn the basic principles of interpreting the emergent Nuclear Medicine exams: eg. V/Q lung scans. Decision-Making/Value Judgment Skills Patient Care • Learn how to promptly provide a preliminary interpretation of plain film examinations and then review the preliminary interpretations with an attending radiologist. • If there are any changes from the preliminary, the radiology resident should contact the appropriate referring physician and give the final interpretation report. • Learn when to request a Pediatric radiology consultation for a complex child case (such as intusseception or child abuse). • Learn the basic principles of assessing a portable C-spine, T- spine or lumbar spine exam to “clear” it before the radiologic technologist performs a complete spine exam. Interpersonal and Communication Skills • Learn the appropriate format for dictation of reports, using PowerScribe. • Develop skills in providing consultations for house staff and clinic physicians on routine emergent imaging studies. • Learn how to interact professionally with the attending Radiologist and attending Emergency physicians on emergent radiologic exams. Second Year Residents (PGY 3) Day (8AM-5 PM), nights (9 PM- 8AM) & weekends/ holidays (5PM-8AM) Knowledge Based Objectives Medical Knowledge • Develop a greater understanding of the basic pathology and pathophysiology of trauma, tumors, infections, and inflammatory diseases. • Continue to develop skills in the interpretation of emergent studies begun in the first year. • Learn the CT findings of acute/emergent diseases. Decision-Making and Value Judgment Skills Patient Care, Interpersonal and Communication Skills, Professionalism • Direct the choice of imaging modality and protocol emergent studies. • Be able to identify those cases that require the additional expertise in assessment of imaging studies. Learn when to call an attending radiologist to provide expertise for complex CT, US, or fluoroscopic exams. • Consult on Level 1 and Level 2 Trauma Emergencies to coordinate emergency radiologic exams and interpretations.
  33. 33. 32 Third & Fourth Year Residents (PGY 4) Nights (9 PM- 8AM) & weekends/ holidays (5PM-8AM) Knowledge Based Objectives Medical Knowledge, Interpersonal and Communication Skills • Continue to expand knowledge of the anatomy, especially on cross-sectional imaging modalities. • Develop more detailed understanding of the basic pathology and pathophysiology of diseases of the chest, bones and abdomen. • Learn to prepare and present cases in clinical conferences for QA, teaching, and management. Decision-Making and Value Judgment Skills Interpersonal and Communication Skills, Professionalism, Patient Care • Protocol and monitor CT and MRI studies. Learn to set up and refine imaging protocols in CT and MRI based on specific clinical indications. Be able to modify imaging protocols based on identification of unexpected or novel findings at the time of scanning. • Act as a consultant for house staff and attending physicians in the Emergency Department. • Provide emergent provisional interpretations of plain radiographs, CT scans and MR scans as needed. • Direct the choice of imaging modality and protocol emergent studies. • Identify those cases that require the additional expertise in assessment of imaging studies. Recommended Reading: 1. Radiology of Emergency Medicine, Harris, Harris, 1999, Lippincott, Wms & Wilkins 2. See Body CT rotation reading list 3. See Chest rotation reading list 4. See Musculoskeletal rotation reading list
  34. 34. 33 MRI - BODY Through the four year residency in diagnostic radiology, each resident competes three, four week rotations in body MR. The following outline presents the goals and objectives for each four-week rotation. First Rotation Goals Medical Knowledge, Interpersonal and Communication skills, Professionalism. • Understand the basic physics of MR including TR, TE, T1W, T2W, Spin echo, Gradient Recall Echo imaging, and Inversion Recovery. • Learn the basic principles of contrast distribution, particularly as applied to arterial and venous phase scanning. • Protocol and monitor MR studies. Modify protocols when appropriate. • Understand the principle of a saline chaser. • Learn to recognize and treat contrast reactions. • Develop skills in interpretation of basic MR pathology. • Learn the appropriate format for dictation of MR reports. Objectives Medical Knowledge Identify the MR appearance of the following pathology: • Liver cancer • Benign liver lesions such as cysts and hemangioma • Pancreas cancer • Lymphoma • Retroperitoneal adenopathy • Aortic Aneurysm • Aortic Dissection • Adrenal adenoma and cancer • Gallstones • Choledocholithiasis • Ascites • Cirrhotic liver • Pancreatitis with pseudocyst and necrosis • Renal cystic disease • Obstructive hydronephrosis dueto ureteral calculus • Active arterial extravasation Second Rotation Goals Medical Knowledge, Interpersonal and Communication skills, Professionalism, Patient Care. • Refine interpretive skills with complex pathology. • Understand the principles of Magnetic Resonance angiography. • Be able to identify life-threatening findings, particularly with aortic aneurysms and grafts. • Provide emergent provisional interpretation as needed. • Be able to direct the choice of imaging modality and protocol emergent studies. • Understand when referral to other imaging modalities is necessary.
  35. 35. 34 Objectives Medical knowledge Identify the MR appearance of the following pathology. • Hepatic abcess • Pancreatic abcess • Renal abcess • Groin pseudoaneurysm. • Biliary cancer • Budd-Chiari Syndrome • Carcnomatosis with ascites • Sequela of cryoablation • Diaphragmatic hernia • Focal nodular hyperplasia of the liver • Hepatocellular carcinoma • Islet cell tumor of the pancreas • Renal oncocytoma • Complications of renal transplantation • Liver transplant complications • Cystic pancreatic neoplasm • Renal hypertension and varices • Retroperitoneal fibrosis • Von Hippel Lindau Syndrome Third Rotation Goals Medical Knowledge, Interpersonal and Communication Skills, Professionalism, Patient Care • Continue to expand the knowledge of MR anatomy and pathology begun in the first two rotations. • Assist fellows and technical staff in performance of CT angiography and its interpretation. • Become a more autonomous consultant and teacher. Objectives Medical Knowledge Identify the MR appearance of the following pathology: • MR angiography of renal donor evaluation • MR angiography of liver transplant candidates • Renal artery stenosis • Accessory renal arteries. • Thoracic outlet syndrome • Uterine fibroids • Uterine anomalies • Ovarian cysts • Ovarian cancer • Pelvic abscess • Cardiac MR imaging including functional cardiac assessment • Learn how to use the cardiac workstation • Arrythmogenic right ventricular dysplasia • Cardiac perfusion imaging • Myocardial viability • Adult congenital heart disease
  36. 36. 35 • Pediatric congenital heart disease • Valvular heart disease Conferences Weekly conference in Cross-Sectional Imaging. Recommended Reading: 1. Abdominal-Pelvic MRI, Semelka, Wiley-Liss, 2002 2. Body MRI, Siegelman, Saunders, 2005 3. Primer on MR Imaging of the Abdomen and Pelvis, Martin, Wiley, 2005 4. Cardiovascular MRI and MRA, Higgins, Lippincott, Wms and Wilkins, 2002 5. Variants and Pitfalls in Body Imaging, Shirkhoda, Lippincott, 2000 6. Cardiac Imaging: The Requisites, Miller, Mosby, 2002 7. Cardiovascular Magnetic Resonance Imaging, Manning, Churchill, Livingstone, 2002 8. Clinical Cardiac MRI, Baert, Springer, 2005 9. MRI Principles, Mitchells, WB Saunders, 2004
  37. 37. 36 MUSCULOSKELETAL RADIOLOGY The musculoskeletal radiology rotation includes (three) four-week rotations, based at Strong Memorial Hospital and the Clinton Crossings out-patient facility, during the 1 st , 2 nd and 3 rd years of the program. During each rotation, the resident is actively involved in the management and interpretation of musculoskeletal plain films, MR and CT examinations from the emergency room, orthopedic surgery clinic, primary care clinics and in-patients. In addition, the resident has the opportunity to learn writing protocols for CT and MRI examinations of the spine and the extremities. Another (two) four- week rotations are spent in SMH doing MR imaging of the musculoskeletal system. These two rotations are integrated as in neuroradiology and body imaging. The resident is expected to have an understanding of the underlying anatomy, physiology, and pathology of the musculoskeletal system. In addition, the resident will need to know the relative indications and advantages and disadvantages of different imaging modalities, such as plain films, CT scanning, radionuclide bone scanning, and MR scanning. During interpretation of the films, the resident is expected to recognize conditions that require urgent or emergency management. These cases need to be quickly reviewed with faculty, and then the appropriate clinical staff contacted with results of the study. When dealing with patients and technologists, the resident will be expected to demonstrate professional behavior in all situations. The didactic material for the rotations will be drawn from the curriculum for musculoskeletal radiology developed by the Education Committee of the Society of Skeletal Radiology and the American Society of Musculoskeletal Radiology. In addition, the resident will need to learn common orthopedic procedures used for treatment of spine and sports medicine pathology. They will also learn proper imaging parameters of MR Imaging and how to interpret in detail MR Imaging of the spine and extremities. In addition to these imaging skills, the resident will be expected to learn the techniques for fluoroscopic guided injections of peripheral joints as needed for arthrography. First, four-week rotation Goals Professionalism, Medical Knowledge, Interpersonal and Communication Skills After completion of the first musculoskeletal rotation, the resident will: • Demonstrate a responsible work ethic • Demonstrate learning of knowledge based objectives • Accurately and concisely dictate a skeletal radiograph report • Communicate effectively with referring clinicians and supervisory staff • Understand standard patient positioning in skeletal radiology • Demonstrate the ability to obtain pertinent patient information relative to radiologic examinations. Objectives Medical Knowledge, Interpersonal and Communication Skills At the end of the first musculoskeletal rotation, the resident will demonstrate learning of the entities include in the congenital anomalies and trauma section of the musculoskeletal objective.
  38. 38. 37 These objectives are outlined in detail and available upon request: • Congenital and Developmental Abnormalities • Trauma • Joint Disorders • Infection • Tumors and Tumor-Like Lesions • Metabolic, systemic, and hematologic disorders (basic) Second, four-week rotation Goals Medical Knowledge, Interpersonal and Communication Skills After completion of the second musculoskeletal rotation, the resident will: • Demonstrate knowledge-based learning objectives with emphasis on infections and joint disorders, neoplasm’s and arthritis. • Continue to build on image interpretive skills • Develop protocol skills, monitoring, and interpreting musculoskeletal CT scans • Develop skills in interpretation of musculoskeletal MRI Objectives The resident will demonstrate learning of the tumors and arthritis section of the musculoskeletal objectives. Third, four-week rotation Goals Medical Knowledge, Interpersonal and Communication Skills After completion of the third musculoskeletal rotation, the resident will: • Demonstrate learning of knowledge-based objectives with emphasis on congenital tumors by metabolic and hematologic disorders • Refine skills in interpretation of imaging of the musculoskeletal system • Develop skills in interpretation of musculoskeletal MRI • Become a more autonomous consultant and teacher Objectives At the end of the third musculoskeletal rotation, the resident will demonstrate his knowledge of 90% of the knowledge-based musculoskeletal objectives listed above. Recommended Reading: 1. Orthopedic Radiology, Greenspan, Lippincott, Wms and Wilkins, 1988 2. Arthritis in Black and White, Brower, Elsevier, 1997 3. Musculoskeletal MRI, Kaplan, Elsevier, 2001 4. Essentials of Musculoskeletal Imaging, El Khoury, Churchill-Livingstone, 2002 5. The Requisites: Musculoskeletal Imaging, Manaster, Mosby, 2006
  39. 39. 38 NEURORADIOLOGY Goals Residents rotate through the Section of Neuroradiology during each of their four years of training. Over this time it is expected that residents will progressively develop their abilities to perform and interpret imaging studies of the central nervous system. Residents will be taught the practical clinical skills necessary to interpret plain radiographs, neurovascular ultrasound exams, CT scans, and MRI exams of 1) brain and skull; 2) spinal cord and vertebral column and; 3) head and neck. They will be instructed in the performance and interpretation of invasive procedures including cerebral angiography, myelography/spinal canal puncture, and imaged guided biopsies of the spine and skull base. The main rotations include neuroangiography, procedures and the reading room, but there may be cross over during these assignments. The goals and objectives listed below are, therefore, outlined by level of training. The residents will receive instruction in the science that underlies clinical neuroradiology, in particular neuroanatomy and neuropathology. They will learn the physical principles of CT, MR, plain radiography, and digital angiography. They will learn the relative value of each modality, enabling to them to choose the appropriate study and the appropriate protocol for each patient. It is expected that residents will participate in the performance of examinations done by the section. They will obtain consents and perform intravenous injections of contrast. In order to perform these duties, the residents will learn the indications and contraindications for contrast administration. They will learn to recognize and treat adverse reactions. Residents will protocol and monitor CT and MR exams after they have demonstrated a sufficient level of knowledge and experience to perform these tasks. Residents will aid in the performance of invasive procedures including angiograms, myelograms, spinal taps and vertebral biopsies. They will learn to explain these procedures to the patients and their families obtain pre-procedure consent and write pre- and post-procedure orders. They will learn techniques of arterial puncture, catheter choice and manipulation, and contrast dosage. They will learn to recognize and treat complications of these invasive procedures. The residents will learn to dictate concise and appropriate radiographic reports and to serve as consultants to referring physicians. First year Residents (PGY 2) Knowledge Based Objectives Medical Knowledge • Learn the basic principles of neuroradiology with an emphasis on normal anatomy of the skull, brain, spine, contents of the spinal canal and head and neck as identified on plain radiographs, CT and MRI. • Develop skills in the interpretation plain films of the skull, facial bones and spine in the setting of acute trauma. Learn to interpret CT scans of the brain, spine, and head and neck with a particular emphasis on studies performed on individuals presenting with acute or emergent clinical abnormalities. o Brain - Infarction, spontaneous intracranial hemorrhage, aneurysmal subarachnoid hemorrhage, traumatic brain injury, infection, hydrocephalus, types of brain edema, brain herniation. o Head and Neck - fractures (orbital, facial and petrous), infection (sinusitis, orbital cellulitis, neck abscess) and airway obstruction. o Spine - trauma (stable and unstable injuries), degenerative disease, infection, neoplasm (vertebral metastases), and cord compression.
  40. 40. 39 • Understand the basic physics of computed tomography (CT). Be familiar with various standard CT imaging protocols and imaging techniques including: o Use of various window and level settings; o Use of soft tissue and bone algorithms; • Options in selecting slice thickness, interslice gap, and helical / multi-row scanner imaging parameters. • Learn the basic physical principles of MRI and be able recognize and understand the clinical value of commonly utilized pulse sequences. • Recognize and understand common imaging artifacts. Technical and Non-interpretive Objectives Patient Care Contrast administration - Learn to obtain informed consent, by explaining the risks and benefits of contrast enhanced CT/MR to the patient. Learn appropriate techniques for injection of contrast (including use of power injectors). Learn to recognize and treat contrast reactions. Decision Making/Value Judgment Skills Interpersonal and Communication Skills • Learn the appropriate format for dictation of reports of neuroradiologic imaging studies. • Develop skills in providing consultations for house staff and referring physicians on routine and emergent imaging studies. Second Year Residents (PGY 3) Knowledge Based Objectives Medical Knowledge • Continue to expand knowledge of the anatomy of the brain and spine. Become familiar with the complex anatomy of the orbit, petrous bone, skull base and soft tissues of the neck (supra- and infra hyoid) as displayed on plain radiographs CT and MR. Have knowledge of established anatomic classification systems for each of these areas. • Become proficient at the interpretation of plain radiographs and CT scans of the brain, head and neck, and spine. • Develop a greater understanding of the basic pathology and pathophysiology of disease of the brain, spine, and head & neck including euplastic and inflammatory lesions. • Continue to develop skills in the interpretation of emergent studies begun in the first year. Learn the imaging features CT and MR of hyperacute infarction. Become familiar with the use of new MR sequences (diffusion, perfusion, and MR spectroscopy) for the detection of these lesions • Develop the ability to use imaging findings to differentiate different types of focal intracranial lesions based on anatomic location (e.g. intra- vs. extra-axial), contour, intensity and enhancement pattern. • Learn to identify and differentiate diffuse intracranial abnormalities (e.g. hydrocephalus and atrophy). • Learn the vascular anatomy of the neck and head as displayed on catheter, MR, and CT angiography. Learn the indications, limitations, risks and benefits for each technique used for visualization of vascular anatomy. • Develop a more detailed understanding of causes of density changes on CT and intensity changes on MR in a variety of lesions (e.g. intracranial hemorrhage). • Become proficient at the assessment of the spine and contents of the spinal canal using a variety of imaging techniques including plain radiographs, CT, MR and myelography. The resident must understand spinal anatomy as displayed on multiplanar images including reformatted helical CT scans and MR scans a. Be able to diagnose and differentiate degenerative spinal diseases
  41. 41. 40 including disc herniations, spinal stenosis, endplate changes, and facet joint disease. Be able to characterize traumatic lesions and identify signs of instability. • Be able to identify spinal cord compression and the cause for the compression (e.g. euplastic involvement of the vertebral body, infection, and trauma). • Learn the imaging features that allow for spatial classification of spinal lesions (extra-dural, intra-dural extra-medullary, and intra-medullary). • Learn the differential diagnosis for each intra-spinal space. • Become proficient at the identification of common lesions of the orbit, petrous bones, skull base and soft tissues of the neck. • Be able to identify and characterize common inflammatory processes in the paranasal sinuses and mastoid bones. • Identify and classify traumatic lesions of the facial bones, petrous bones and orbits using established classification nomenclature. • Identify common inflammatory and euplastic mass lesions. Have knowledge of criteria for identification and differentiation of causes of cervical adenopathy. Technical and Non-Interpretive Objectives Patient Care, Interpersonal and Communication Skills • Learn to obtain informed consent for invasive procedures for including myelography, angiography and image guided biopsies. The resident must understand and be able to explain the risks, benefits and complications of these procedures to patients and their families. • Learn to perform fluoroscopically guided punctures of the lumbar spinal canal for the purpose of myelography, spinal fluid collection, and intrathecal injection of medications. • Assist senior residents, fellows, and attendings in the performance of angiograms, myelograms, and biopsies. Decision-Making and Value Judgment Skills Patient Care, Interpersonal and Communication Skills, Professionalism • Protocol and monitor CT studies. Be able to modify imaging protocols based on identification of unexpected or novel findings. • Act as a consultant for house staff and attending physicians in the Emergency department. • Provide emergent provisional interpretations of plain radiographs, CT scans and MR scans as needed. • Direct the choice of imaging modality and protocol emergent studies. • Be able to identify those cases that require the additional expertise in assessment of imaging studies. Third Year Residents (PGY 4) Knowledge Based Objectives Medical Knowledge, Interpersonal and Communication Skills • Continue to expand knowledge of the anatomy and functional connections of the brain and spine begun during the first two years on the service. • Develop more detailed understanding of the basic pathology and pathophysiology of diseases of the brain, spine, and head & neck including euplastic, vascular, and inflammatory lesions. • Expand and apply knowledge base in emergent neuroradiologic studies, including the triage and protocols for patients with acute ischemic stroke, hemorrhage, and trauma. • Study extracranial and intracranial vascular anatomy and its pathophysiology using CT, MRA, catheter angiography, and ultrasound. Be familiar with strengths and weaknesses of these techniques for common imaging indications, and pitfalls in image interpretation. • Learn patterns of pediatric and developmental neuropathology, including neuronal migration disorders, metabolic disease, and disorders of myelination.
  42. 42. 41 • Refine indications for direct coronal imaging, and orthogonal and 3D reconstructions. • Learn to prepare and present cases in clinical conferences for tumor board, teaching, and management. Technical and Non-Interpretive Objectives Patient Care, Interpersonal and Communication Skills, Professionalism • Take increasing responsibility for obtaining informed consent for invasive procedures for including myelography, angiography and image guided biopsies. The resident must understand and be able to explain the risks, benefits and complications of these procedures to patients and their families. • Expand clinical consultation and technical experience for fluoroscopically guided punctures of the lumbar spinal canal for the purpose of myelography, spinal fluid collection, and intrathecal injection of medications. • Assist fellows and attendings in the performance of angiograms, myelograms, and biopsies, taking on an increasing role as appropriate. Decision-Making and Value Judgment Skills Interpersonal and Communication Skills, Professionalism, Patient Care • Protocol and monitor CT and MRI studies. Learn to set up and refine imaging protocols in CT and MRI based on specific clinical indications. Be able to modify imaging protocols based on identification of unexpected or novel findings at the time of scanning. • Act as a consultant for house staff and attending physicians in the Emergency Department. • Provide emergent provisional interpretations of plain radiographs, CT scans and MR scans as needed. • Direct the choice of imaging modality and protocol emergent studies. • Identify those cases that require the additional expertise in assessment of imaging studies. Fourth Year Residents (PGY 5) Goals Medical Knowledge, Interpersonal and Communication Skills, Professionalism • Become proficient at the interpretation of CT and MR scans. • Develop the ability to accurately describe complex findings and generate comprehensive yet precise differential diagnoses of a variety of common and uncommon lesions of the brain, skull, and spine. • Learn the imaging features of post-operative and post-radiation exams. • There should be a special emphasis on acquiring basic knowledge and experience in the interpretation of imaging studies of diseases of the orbits, petrous bones, skull base, and soft tissues of the neck. • Develop the ability to use neuroimaging studies to solve a broad range of clinical problems. Learn how to choose the appropriate study (e.g. CT vs. MR) and the appropriate protocol in a variety of clinical circumstances. • Increase proficiency with fluoroscopic guided spinal punctures and image-guided biopsies of the spine. Gain experience in the performance and interpretation of cerebral angiography and myelography. • Develop consultation skills. Responsibilities Patient Care, Interpersonal and Communication Skills, Professionalism • Participate in the general performance of tasks within the section (e.g. contrast injection, patient monitoring) -see above • Interpret CT scans under the supervision of an attending at least twice a week.
  43. 43. 42 • Interpret MR scans at least three times a week under the supervision of an attending. • Provide emergent and/or provisional interpretations ("wet readings") for house staff and attending physicians. • Monitor and protocol CT and MR exams. • Perform invasive procedures (spinal punctures, myelograms, CT guided biopsies and angiograms under the guidance of fellows or attending radiologists (goal: 15 procedures per block). Recommended Reading: 1. Diagnostic Neuroradiology , Osborn, Mosby, 1994 2. Handbook of Head and Neck Imaging, Harnsberger, Mosby, 1995 3. MRI, The Basics, Hashemi, Williams and Wilkins, 2003 4. Pediatric Neuroimaging, Barkovich, Raven Press,2005 5. Magnetic Resonance Imaging of the Brain and Spine, Atlas, Lippincott (Companion CD available)
  44. 44. 43 NUCLEAR MEDICINE ROTATION I Knowledge Based Objectives Medical Knowledge At the end of the rotation, the resident will be able to: • Demonstrate a thorough knowledge of the clinical indications, general procedures (including radiopharmaceutical and dose), and scintigraphic findings in: pulmonary (emboli) ventilation and perfusion imaging • Discuss the basic physical principles of nuclear medicine imaging and instrumentation. • Identify the isotopes (including physical and chemical properties) that are used routinely in the compounding or radiopharmaceuticals for nuclear radiology procedures Technical Skills Practice Based Learning and Improvement At the end of the rotation, the resident will be able to: Recognize limitations in personal knowledge and skills, being careful to not make decisions beyond the level of personal competence. Decision-Making and Value Judgment Skills Patient Care, Professionalism, Interpersonal and Communication Skills, Medical Knowledge At the end of the rotation, the resident will be able to: • Review histories of patients to be imaged each day to determine the relevance of the study to clinical symptoms, to evaluate for contraindications to the study, and to advise technologists about special views or specific parameters of the study that require special attention. • Assist technologists in the determination of the radiopharmaceutical dosage when patient conditions do not fit the criteria of the standard dose. • Observe at least one of each of the different scans routinely performed, as well as all the infrequently ordered studies. • Make a preliminary review of the images and advise technologists when additional views or repeat views are needed. Rotation II Knowledge Based Objectives Medical Knowledge, Interpersonal and Communication Skills, Professionalism At the end of the rotation, the resident will be able to • Demonstrate a thorough knowledge of the clinical indications, general procedures (including radiopharmaceutical and dose) and scintigraphic findings in: o renal and urinary tract studies o liver/spleen imaging o GI tract imaging and functional studies o thyroid imaging and functional studies o brain imaging and functional studies
  45. 45. 44 o tumor and abscess imaging • Identify and discuss indications for isotopes used for therapeutic purposes • Describe the protocol for using I-131 for treatment of hyperthyroidism and thyroid malignances, including protocol for hospitalization and monitoring of patients who receive over 30 mCi of activity. Technical Skills Interpersonal and Communication Skills, Patient Care, Systems Based Practice, Professionalism, Medical Knowledge At the end of the rotation, the resident will be able to • Read and/or dictate films with the assistance/review of the faculty radiologist. • Assist with radioactive therapy treatments, making sure the consent form is completed properly and that the appropriate dose is administered, giving particular attention to radiation safety practices during the procedure. • Assist with preparation/presentation of cases for biweekly resident noon film review. Decision-Making and Value Judgment Skills Practice Based Learning and Improvement, Interpersonal and Communication Skills, Professionalism At the end of the rotation, resident will be able to • Recognize limitations in personal skill and knowledge, always making sure dictations and consultations, are checked, by the faculty radiologist. • Review all scans as they are performed for significant findings that require prompt attention, and make decisions in regard to notification of the referring physician if the faculty radiologist is not available for consultation. ROTATIONS III, IV Knowledge Based Objectives Medical Knowledge, Interpersonal and Communication Skills At the end of the rotation, resident will be able to • Identify normal and abnormal findings on all imaging and functional studies, other than nuclear cardiology studies. • Discuss all aspects of nuclear studies, including indications, pathologies, protocols, correlative studies, radiopharmaceuticals used for each study, and various parameters that might interfere with the results of the procedure. Technical Skills Medical Knowledge, Interpersonal and Communication Skills At the end of the rotation, resident will be able to: • Review and dictate with the faculty radiologist all scans performed. • Review cases.
  46. 46. 45 Decision-Making and Value Judgment Skills Medical Knowledge, Practice Based Learning and Improvement, Interpersonal and Communication Skills, Professionalism At the end of the rotation, the resident will be able to • Make preliminary decisions on all matters of film interpretation and consultation, recognizing need for and obtaining assistance in situations that require the expertise of the faculty radiologist. • Comment on anatomical findings, scanning technique, and reasons for doing the study to RAD 401 students in such a way that the students will be able to develop an appreciation for the value of nuclear radiology procedures in patient management. ROTATION V Knowledge Based Objectives Medical knowledge, Interpersonal and Communication Skills At the end of the rotation, resident will be able to • Demonstrate a thorough knowledge of the clinical indications, general procedures and findings in: o myocardial perfusion studies (rest and stress o myocardial infarct imaging o multi-gated acquisition imaging and function studies • Describe the radiopharmaceuticals used in cardiac nuclear studies, including the methods of red cell labeling, patient dosages and physical properties of the isotopes. • Discuss patient conditions and patient monitoring requirements, particularly in relation to exercise and drug stress studies. • Process computer data obtained in each of the different cardiac studies. • Discuss the range of invasive and noninvasive tests, test characteristics and the prognostic value of tests used to evaluate cardiac disease. Decision-Making and Value Judgment Skills Medical Knowledge, Interpersonal and Communication Skills At the end of the rotation, the resident will be able to • Select tests for evaluation of cardiac disease on the basis of patient condition and clinical symptoms. • Correlate the results from various tests with interpretation of nuclear cardiology exams. ROTATION VI Knowledge Based Objectives Medical Knowledge, System Based Practice At the end of the rotation, the resident will be able to • Discuss the following information regarding all radiopharmaceuticals used in nuclear radiology studies: o production of isotopes o physical properties of isotopes o general elution and quality control
  47. 47. 46 o compounding of radiopharmaceuticals o radiochemical quality control o bio-distribution and mechanisms of localization • Calculate patient doses, using information related to decay factors, volume concentration, and patient parameters. • Describe the procedures and rationale for instrument quality control in nuclear medicine. • Discuss rules and regulations that apply to the practice of nuclear radiology as outlined in 10CFR20 and other appropriate sources. • Describe the types of records that must be maintained in order to comply with federal/ state guidelines for radiation safety and radioisotope receipt/us/disposal. • Demonstrate an in-depth understanding of the physics of nuclear radiology. Technical Skills Medical Knowledge, System Based Practice At the end of the rotation, the resident will be able to • Compound radiopharmaceuticals from kits and do appropriate quality control procedures. • Elute a generator and do appropriate quality control procedures. • Calculate and draw up patient doses. • Demonstrate appropriate use of a survey meter to monitor radioactivity spills or other sources. • Perform a wipe test. • Perform quality control procedures on cameras, well/uptake probes, and dose calibrators. • Handle radioactive sources according to the established guidelines. Decision-Making and Value Judgment Skills System Based Practice, Patient Care, Interpersonal and Communication Skills, Professionalism At the end of the rotation, the resident will be able to Carry out the practice of nuclear radiology with due regard to quality control, quality assurance, and radiation safety for the patient and personnel. Recommended Reading: 1. Diagnostic Neuroradiology, Osborn, Mosby, 1994 2. Handbook of Head and Neck Imaging, Harnsberger, Mosby, 1995 3. MRI: The Basics, Hashemi, Lippincott, Wms and Wilkins, 2003 4. Pediatric Neuroimaging, Barkovich, Lippincott, Wms and Wilkins, 2005 5. Magnetic Resonance Imaging of the Brain and Spine, Atlas, Lippincott, Wms and Wilkins, 2001
  48. 48. 47 PHYSICS AND RADIOPHARMACY Medical Knowledge, System Based Practice Provisions will be made throughout the rotation to • Discuss the following information regarding all radiopharmaceuticals used in nuclear radiology studies: o production of radionuclides o physical properties of radionuclides o generator elution and quality control of eluate o compounding of radiopharmaceuticals o quality control of radiopharmaceuticals o biodistribution and mechanisms of localization • Calculate patient doses, using information related to decay factors, volume concentration, and patient parameters. • Describe the rationale and procedures for instrument quality control in nuclear medicine. • Discuss rules and regulations that apply to the practice of nuclear medicine as outlined in IOCFR20 and other appropriate sources. • Describe the types of records that must be maintained in order to comply with federal/state guidelines for radiation safety and radionuclide receipt/use/disposal. • Demonstrate an understanding of the physics of nuclear medicine. • Observe the compounding of radiopharmaceuticals from kits and do appropriate quality control procedures. • Observe the elution of a generator and do appropriate quality control procedures. • Observe the calculating and drawing up of patient doses. • Demonstrate appropriate use of a survey meter to monitor radioactivity spills or contamination, and radioactive sources. • Observe the performance of a wipe test. • Observe the performance of quality control procedures on cameras, well/uptake probes, and dose calibrators. • Observe the handling of radioactive sources according to the established guidelines. • Observe the practice of nuclear medicine with due regard to quality control, quality assurance, and radiation safety for the patient and personnel. Recommended Reading: 1. Diagnostic Nuclear Medicine, Sandler, Lippincott, Wms and Wilkins, 2002 2. Essentials of Nuclear Medicine Imaging, Mettler, WB Saunders, 2005 3. Nuclear Medicine: The Requisites, Thrall, Mosby, 2000

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